Symetrical
Then the figure has line symmetry.
its either reflecting i think!! im not sure!!
An image has Reflectional Symmetry if there is at least one line which splits the image in half so that one side is the mirror image of the other. Reflectional symmetry is also called line symmetry or mirror symmetry because there is a line in the figure where a mirror could be placed, and the figure would look the same.
Mirror image twins are identical and have mirror image differences but are genetically identical which means they have the same DNA. A set of mirror-image twins will have similarities like a mole. One twin would have it on his left arm while the other would have it on his right. Another common feature is one twin being left handed, while the other is right handed. For male twins, the swirl of hair crown is often in the opposite direction.
Symetrical
Then the figure has line symmetry.
its either reflecting i think!! im not sure!!
An image has Reflectional Symmetry if there is at least one line which splits the image in half so that one side is the mirror image of the other. Reflectional symmetry is also called line symmetry or mirror symmetry because there is a line in the figure where a mirror could be placed, and the figure would look the same.
The definition of a line of symmetry is a line that can be draw down the center of any shape or object to show mirror image of the other side. where each side is a mirror image of the other side. Now for a horizontal one, it just means that if you cut the figure in half, horizontally it will make a mirror image.
"Real" and "virtual" are two opposite, mutually exclusive categories of images. An image is either one or the other, and no image can be both. The image produced by a plane mirror is a virtual one.
A single mirror will only have one image of whatever it is reflecting. It is possible to see more than one image by having two mirrors reflect each other. Many images will then be visible.
Symetrical
An image in a plane mirror is upright and the same size as the object, while in a convex mirror the image is smaller, upright, and virtual. Convex mirrors also have a wider field of view and make objects appear farther away than they actually are.
A mirror image is a reflection, where the left and right sides are switched. It is not necessarily an opposite image, as it depends on the context.
For mirrors, the object distance (u) is always positive as it is measured on the side of the object, while the image distance (v) is positive if formed on the opposite side of the mirror (real image) and negative if formed on the same side as the object (virtual image).
The image in a periscope is not laterally inverted because it undergoes two reflections inside the periscope, which cancel out the inversion. When light reflects off two mirrors in the periscope, the orientation of the image is maintained.